主要经历:
2021.02-至今 中山大学物理学院 教授
2014.08-2021.01 中山大学物理学院 副教授
2013.09-2014.07 新加坡南洋理工大学 Research Fellow
2011.08-2013.08 香港理工大学 Postdoc Research Fellow
2006.09-2011.07 中国科学院长春光学精密机械与物理研究所 博士
学科方向:
学科方向: 凝聚态物理、光学
招生情况:在凝聚态物理、光学方向,每年拟招收博士生1名、硕士生2名
主要课程: 固体物理,光电子技术,高等半导体物理
研究方向:宽禁带半导体光电器件物理
(1) 强耦合激子-微腔量子电动力学
(2) GaN基半导体VCSEL激光芯片
(3) 金刚石半导体深紫外光电器件
(4) 宽禁带半导体功率电子器件
主要成果:
专注于第三代宽禁带半导体光电器件、微腔polariton激光、GaN基VCSEL激光器、超宽禁带半导体功率电子器件与探测芯片研究。以第一/通讯作者在Advanced Materials, Nano Letters, Laser & Photonics Reviews, Advanced Functional Materials, ACS Nano等权威期刊发表SCI论文60余篇,论文被引用2000余次,授权专利5项。先后获得2项吉林省科学技术一等奖、中国科学院院长奖。
(1)利用第三代宽禁带半导体高激子束缚能、大振子强度优点,成功实现了室温下微腔polariton玻色-爱因斯坦凝聚态(BEC)激光,填补了国内在第三代半导体polariton BEC凝聚激光的研究空白。
(2)创新设计环形准粒子激励模式,将热激子库与极化激元凝聚区空间分离,极大的抑制了BEC激光非相干热展宽,在室温下实现了极化激元超窄线宽BEC激光。
(3)在国际上首次实现高达7光子吸收的上转换紫外激光,并提出光场辅助量子隧穿跃迁模型,完善了传统的多光子上转换发光模型。
(4)为克服强耦合系统直接共振激发技术瓶颈,提出双光子吸收激励机制实现了参量散射激光,为非线性光学和量子技术的研究提供新路径。
承担课题:
[1] 国家基金委区域创新联合重点项目.氧化镓基调制掺杂高迁移率顶栅晶体管与集成研究.[2023-2026]. 主持、在研
[2] 国家科技委173基础加强计划项目, xxxxxx氧化镓探测器, [2023-2024]. 主持、在研
[3] 国家自然科学基金面上项目. 超表面微腔激子极化激元涡旋激光研究. [2020-2023].主持、在研.
[4] 国家自然科学基金面上项目. 多光子吸收上转换激光研究. [2020-2023].参与/合作、在研.
[5] 广州市科技计划项目. 超表面垂直结构微腔极化激元的自发相干激光研究. [2020-2022].主持、结题.
[6] 广东省自然科学基金杰出青年项目, 基于高质量单晶ZnO紫外半导体激光器研制.[2016-2020]. 主持、结题.
[7] 中山大学三大建设GF培育项目. 高功率ZnO异质结半导体***. [2018-2019]. 主持、结题.
[8] 国家自然科学基金青年项目. ZnO基电注入激子-微腔激光器研究.[2016-2018].主持、结题.
[9] 中山大学青年教师重点培育项目. 多光子泵浦低维量子结构上转换激光研究.[2017-2018].主持、结题.
[10] 广州市科技计划项目(重点项目). ZnO基高效紫外半导体激光器研究.[2017-2020]. 参与/学术骨干、结题
[11] 国家自然科学基金重大研究计划集成项目. 大尺寸氧化锌及宽禁带半导体单晶制备与发光器件. [2019-2021]. 参与/学术骨干、结题.
荣誉获奖:
◆ 2020年 芙兰优秀教师励教奖
◆ 2016年 广东省自然科学基金杰出青年
◆ 2015年 吉林省自然科学技术 一等奖 排名第6
◆ 2012年 吉林省科学技术奖 一等奖 排名第4
◆ 2011年 吉林省自然科学学术成果奖 二等奖 排名第2
◆ 2011年 中国科学院院长奖
◆ 2011年 中国科学院优秀毕业生奖
主要兼职:
美国光学学会OSA会员,物理学报、Chinese Physics Letter青年编委、《材料研究与应用》青年主任编委。Advanced Materials, ACS Nano, Applied Physics Letters,Semiconductor Science and Technology等期刊审稿人.
代表论著:
[37] Junxing Dong, Si Shen, Yifan Zhang, Huashan Li, Xianghu Wang, Wei Gao, Yongzheng Fang, Hai Zhu*. Direct Observation and Ultrafast Optical Manipulation of Intermode Exciton-polariton Parametric Scattering Lasing. Laser & Photonics Reviews, 2026, e71180.
[36] Yifan Zhang, Si Shen, Junxing Dong, Huashan Li, Xianghu Wang, Zhenfeng Zhang, Xun Yang, Guang Wang, Chongxin Shan, Hai Zhu*. High Temporal Dynamic Diamond Based Deep Ultraviolet Photodetector via Femtosecond Laser Induced Graphitization, Advanced Optical Materialsm, 2026, e71372.
[35] Zhang Hongzhu, Shen S, Dong J, Hai Zhu* et al. Exciton-polariton lasing with polarization fixing reciprocal space resolved at room temperature. Applied Physics Letters. 2026, 128(11).
[34] Zenan Wang, Hanzhe Zhang, Shichen Su*,Si Shen*, Xianghu Wang*, Hai Zhu*, Micro-Textured In₂O₃/IGZO Heterostructure Thin-film Transistors with Enhanced Field-effect Mobility and Stability, Semicond. Sci. Technol. 2026,41, 035014 .
[33] Zhenghao Sun, Si Shen, Xianghu Wang, Guang Wang and Hai Zhu*. High-Performance Self-Powered p-GaN/Ga2O3 Solar-Blind Photodetector via In-Situ GaON Interface Engineering[J]. Journal of Physics D: Applied Physics, 2026.
[32] Runchen Wang, Hua Shi, Junxing Dong, Lisheng Wang, Jingzhuo Wang, Yifan Zhang,Huashan Li, Si Shen, Xianghu Wang, Xun Yang, Chongxin Shan, Yan Shen, and Hai Zhu*. "Nonlinear Parametric Scattering of Hybrid Exciton Polaritonin a Strong Coupled Microcavity" Laser & Photonics Reviews, e00736, 2025.
[31] Huying Zheng, Xuebing Gong, Yifan Zhang, Xianghu Wang, Hua Shi, Dezhen Shen, Yiyun Zhang, Hai Zhu*. "Polaron Polariton Bose Einstein Condensation Lasing via Longitudinal Optical Phonon Scattering in GaN-Based Microcavity" Nano Letter, 25, 9605−9613, 2025.
[30] Lisheng Wang, Yifan Zhang, Junxing Dong, Jingzhuo Wang, Zenan Wang, Yuan Feng, Xianghu Wang, Si Shen, Hai Zhu*. Defect-mediated threshold voltage tuning in β-Ga2O3 MOSFETs via fluorine plasma treatment. Nanomaterials, 2025, 15, 1896.
[29] Junxing Dong,Yuting Wu, Yue Wang, Xianghu Wang, Si Shen, Hai Zhu. Low-threshold colloidal quantum dot polariton lasing via a strong coupling microcavity at room temperature[J]. Nanoscale, 2025, 17(16): 10187-10193.
[28] Lisheng Wang, Yifan Zhang, Xianghu Wang, Si Shen, Hai Zhu. High-temporal dynamic self-powered β-Ga2O3/GaN heterojunction ultraviolet photodetector. Journal of Physics D: Applied Physics, 2025, 58, 135121.
[27] Yaqi Wang, Binru Zhou, Zhicong Li, Yiyun Zhang, Xiaoyan Yi, Junxi Wang, Jinmin Li, and Hai Zhu*. "Ultra-narrow Linewidth Polariton Lasing in Optically Trapped Bose-Einstein Condensates at Room Temperature" Laser & Photonics Reviews, 202400203, 2024.
[26] Runchen Wang, Yaqi Wang, Huanjun Chen, Yunwei Zhang, Yiyun Zhang, Yue Wang, and Hai Zhu*. "The Intermode Polariton Parametric Scattering Laser in a Strong Coupled Microcavity via Two-photon Absorption" Nano Letter, 2024.
[25] Huying Zheng, Runchen Wang, Yan Shen*, Huanjun Chen, Baijun Zhang,* and Hai Zhu,* "Quantized Microcavity Polariton Lasing Based on InGaN Localized Excitons" Nanomaterials, 2024.
[24] Runchen Wang, Yaqi Wang, Huanjun Chen, Yan Shen, and Hai Zhu.* "Ultra-low Threshold Single-mode Upconversion Lasing in Strong Coupled Microcavity via Four-Photon Absorption" Advanced Optical Materials,2024, 12, 2301637.
[23] Yaqi Wang, Huying Zheng, Yan Shen, Xun Yang, Kai-Kai Liu, Shuangpeng Wang, Shaozhi Deng, Chong-Xin Shan, and Hai Zhu.* "Spin-Polarization-Induced Chiral Polariton Lasing at Room Temperature" ACS Photonics,2023, 10, 6, 1936–1943.
[22] Ziying Tang, Huying Zheng, Zhiren Qiu, Xianghu Wang, Shichen Su, Lin Li, Hai Zhu.* "High-temporal dynamic β-Ga203 ultraviolet solar-blind photodetector via heteroepitaxy single crystalline film" Materials Today Physics,2023, 34,10107.
[21] Yangcheng Yu,Dong Han,Yan Shen,Huying Zheng,Yaqi Wang,Runchen Wang, Hai Zhu,* and Shaozhi Deng. "Aluminum Nitride Ultraviolet Light-Emitting Device Excited via Carbon Nanotube Field-Emission Electron Beam" Nanomaterials 2023, 13(6), 1067.
[20] Zhiyang Chen, Huying Zheng, Hai Zhu,* Shichen Su, Yan Shen, and Chongxin Shan. "Robust Polariton Bose–Einstein Condensation Laser via a Strong Coupling Microcavity" Laser & Photonics Reviews, 2000273, 2020.
[19] Ying Huang, Hai Zhu,* Shichen Su, Yan Shen, Xuchun Gui, Shaozhi Deng, Zikang Tang. "The Five-Photon Absorption Upconversion Lasing from on-Chip Whisper-gallery Mode" Nanoscale, 12, 6130-6136, 2020.
[18] Yunfeng Liang, Hai Zhu,* Ruijiang Hong,* Xuchun Gui and Yan Shen. "Competition of Whispering Gallery Lasing Modes in Microwire with Hexagonal Cavity", J. Phys. D: Appl. Phys. 2020.
[17] Zhiyang Chen, Huying Zheng, Hai Zhu,* Xianghu Wang, Yan Shen, and Xuchun Gui. "Dispersion mapping of a whispering gallery mode robust polariton at room temperature" OSA Continuum, 3(8), 2053-2061, 2020.
[16] Huying Zheng, Zhiyang Chen, Hai Zhu,* Chongxin Shan, "Dispersion of Exciton-polariton based on ZnO/MgZnO Quantum Wells at Room-temperature" Chinese Physics B, 2020.
[15] Jinyu Li, Hai Zhu,* Xuchun Gui, Shuangpeng Wang, Zikang Tang, Peinan Ni, and Patrice Genevet. "Enhanced Second-Harmonic Generation in a Single Microwire Based on Localized Surface Plasmon". Phys. Status Solidi B, 1900075, 2019.
[14] Hai Zhu,* An Q. Chen, S. F. Yu, C. X. Shan and F. Huang."Seven-photon Excited Upconversion Lasing at Room-temperature" Advanced Optical Materials. 6, 1800518, 2018.
[13] Zhiyang Chen, Guanlin Lou, Hai Zhu,* X. C. Gui, and Z. K. Tang."Enhancement of Two-photon Absorption Photoresponse based on Whispering Gallery Mode" Nanoscale.10, 14047, 2018.
[12] Anqi Chen#, Hai Zhu#,* Siufung Yu, Xuchun Gui, Shuangpeng Wang and Zikang Tang."Low-threshold Whispering-gallery Mode Upconversion Lasing via Six-Photon Absorption Simultaneous" Advanced Optical Materials. 6,1800407, 2018.
[11] Yuhao Ren, Hai Zhu,* Yanyan Wu, Shuti Li, Shichen Su, Xuchun Gui , Zhiren Qiu, and Zikang Tang."Ultraviolet Random Laser Based on a Single GaN Microwire" ACS Photonics. 5, 2503, 2018.
[10] Yanyan Wu, Jinyu Li, Hai Zhu,* Yuhao Ren, Xuchun Gui, and Zikang Tang.* "Enhanced random laser by metal surface-plasmon channel waveguide". Optics Express, 26, 17511-17518, 2018.
[9] G. L. Lou, Hai Zhu,* A. Q. Chen, D. Y. Zhong, Z. R. Qiu and Z. K. Tang. "Single and Two-photon Absorption Single-microbelt Photodetector" J. Phys. D: Appl. Phys. 51, 19LT01, 2018.
[8] A. Q. Chen, H. Zhu,* Y. H. Ren, X. C. Gui, S. P. Wang and Z. K. Tang*. "Electrically Driven Single Microwire-based Heterojuction Light-emitting Devices" ACS Photonics. 4, 1286, (2017)
[7] Y . Y. Wu, Y. H. Ren, H. Zhu,* X. C. Gui, S. P. Wang and Z. K. Tang*. "One-dimension Random Laser based on Artificial High-index Contrast Scatterers'' Nanoscale. 9, 6959, (2017)
[6] A. Q. Chen, H. Zhu,* Y. Y. Wu, X. C. Gui, and Z. K. Tang*. “Beryllium-Assisted p-Type Doping for ZnO Homojunction Light-Emitting Devices'' Advanced Functional Materials. 10. 1002, (2016)
[5] H. Zhu, X. Chen, L. M. Jin, Q. J. Wang, F. Wang, and S. F. Yu*. “Amplified spontaneous emission and lasing from lanthanide-doped up-conversion nanocrystals” ACS Nano 38, 152 (2013).
[4] H. Zhu,W. F. Zhang, and S. F. Yu*. “Realization of lasing emission from graphene quantum dots using titanium dioxide nanoparticles as light scatterers” Nanoscale 5, 1797 (2013).
[3] W. F. Zhang, H. Zhu,* S. F. Yu, and H. Y. Yang. “Observation of Lasing Emission from Carbon Nanodots in Organic Solvents” Advanced Materials 24, 2263 (2012).
[2] H. Zhu, C. X. Shan*, J. Y. Zhang, D. Z. Shen, X. W. Fan, Z. K. Tang, and K. L. Choy. “Low-Threshold Electrically Pumped Random Lasers in ZnO” Advanced Materials 22, 1877 (2010)
[1] H. Zhu, C. X. Shan*, B. Yao, B. H. Li, J. Y. Zhang, D. Z. Shen, X..W. Fan, Y. M. Lu, and Z. K. Tang. “Ultralow-Threshold Laser Realized in Zinc Oxide” Advanced Materials 21, 1613 (2009).


